Patent application number | Description | Published |
20090065178 | Liquid cooling jacket - A liquid cooling jacket (J | 03-12-2009 |
20100096438 | JOINING METHOD AND FRICTION STIR WELDING METHOD - A method of welding that realizes enhancements of airtightness and watertightness at weld area: and a method of welding and method of friction stir welding that attain an enhancement of welding operation efficiency/speed. There is provided a method of welding comprising the first primary welding step of carrying out a friction stir welding on the abutting portion (J | 04-22-2010 |
20100101768 | HEAT TRANSFER PLATE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a heat transfer plate ( | 04-29-2010 |
20110308059 | MANUFACTURING METHOD OF LIQUID-COOLED JACKET - Provided is a method of producing a liquid-cooled jacket wherein deformation of a seal body can be minimized. A method of producing a liquid-cooled jacket constituted by fixing a seal body which seals the opening of a recess, by friction stir welding, to a jacket body having a partially opening recess through which heat transport fluid for transporting heat generated by a heat generating body to the outside flows, wherein the seal body is mounted on a supporting surface which is formed at the peripheral edge of the opening of the recess in the jacket body and consists of the bottom surface of a step lower than the surface of the jacket body, the side surface of the step of the jacket body and the outer circumferential surface of the seal body are butted each other, a plasticized region is formed by making one round of a rotary tool which is equipped with a stir pin having a length greater than the thickness of the seal body round along the butting portion of the side surface of the step of the jacket body and the outer circumferential surface of the seal body, and then the seal body is welded to the jacket body. | 12-22-2011 |
20120193401 | ROTATION TOOL FOR JOINING INNER CORNER AND JOINING INNER CORNER METHOD USING THE SAME - The present invention provides an economic rotation tool for joining a pair of metal members which form an inner corner by abutting the pair of metal members ( | 08-02-2012 |
20120279761 | FIN-INTEGRATED SUBSTRATE AND MANUFACTURING METHOD OF FIN-INTEGRATED SUBSTRATE - There is provide a manufacturing method of a fin-integrated substrate capable of producing by simple process a fin-integrated substrate with heat radiating fins at fine pitches by a processing method in which warpage of a metal base plate and corrugation (wavy shape) of the heat radiating fins are suppressed. There is provided a manufacturing method of a fin-integrated substrate in which bonding of the metal circuit board to the ceramic substrate is performed by a molten metal bonding method, and formation of the plurality of heat radiating fins at a cut part that is a part of the metal base plate is performed by fixing by a jig to apply a tensile stress on a surface of the cut part where the heat radiating fins are to be formed, and performing grooving processing of forming a plurality of grooves by moving a multi-cutter composed of a plurality of stacked disc-shaped cutters, on the surface to which the tensile stress is applied, while rotating the multi-cutter. | 11-08-2012 |
20120305292 | LIQUID-COOLED INTEGRATED SUBSTRATE AND MANUFACTURING METHOD OF LIQUID-COOLED INTEGRATED SUBSTRATE - There is provide a liquid-cooled integrated substrate which has reduced material cost and processing cost, is reduced in warpage (shape deformation) as an integrated substrate, and has excellent strength and heat radiation performance, and a manufacturing method of the liquid-cooled integrated substrate. There is provided a liquid-cooled integrated substrate | 12-06-2012 |
20130126138 | HEAT TRANSFER PLATE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a heat transfer plate includes: an insertion process of inserting a heat medium pipe in a concave groove formed in a bottom face of a lid groove open to an obverse of a base member; a lid groove closing process of arranging a lid plate in the lid groove; and a main joining process of moving a main joining rotation tool along butt portions (V | 05-23-2013 |
20140165399 | MANUFACTURING METHOD OF LIQUID-COOLED JACKET - Provided is a method of producing a liquid-cooled jacket wherein deformation of a seal body can be minimized. A method of producing a liquid-cooled jacket constituted by fixing a seal body which seals the opening of a recess, by friction stir welding, to a jacket body having a partially opening recess through which heat transport fluid for transporting heat generated by a heat generating body to the outside flows, wherein the seal body is mounted on a supporting surface which is formed at the peripheral edge of the opening of the recess in the jacket body and consists of the bottom surface of a step lower than the surface of the jacket body, the side surface of the step of the jacket body and the outer circumferential surface of the seal body are butted each other, a plasticized region is formed by making one round of a rotary tool which is equipped with a stir pin having a length greater than the thickness of the seal body round along the butting portion of the side surface of the step of the jacket body and the outer circumferential surface of the seal body, and then the seal body is welded to the jacket body. | 06-19-2014 |
20140166731 | FRICTION STIR WELDING METHOD - The invention aims at providing a friction stir welding method which can achieve joining a butting portion to a deep location therein by reducing the load on the friction stirring device. The friction stir welding method for joining two metal members ( | 06-19-2014 |
20150041187 | MANUFACTURING METHOD OF RADIATOR-INTEGRATED SUBSTRATE AND RADIATOR-INTEGRATED SUBSTRATE - A metal circuit board and a metal base plate are bonded to a ceramic substrate to form a metal-ceramic bonded substrate, then the metal base plate is arranged on one surface of the radiator via a brazing material with the metal base plate overlapping with the one surface of the radiator, a jig having a concave R surface is arranged on another surface of the radiator with the jig butting against the another surface of the radiator, a jig having a convex R surface protruding toward the metal-ceramic bonded substrate is brought into contact with another surface of the metal circuit board, and the metal-ceramic bonded substrate and the radiator are heat-bonded while they are pressurized by the radiator side jig and the metal-ceramic bonded substrate side jig, wherein a curvature radius R (mm) of the convex R surface and the concave R surface is 6500≦R≦surface pressure (N/mm | 02-12-2015 |